A COMPARATIVE ANALYSIS OF CONSTRUCTIVE SCHEMES OF LINEAR IMPACTOR ELECTROMECHANICAL CONVERTERS COMBINED TYPE

Authors

  • V. F. Bolyukh National Technical University "Kharkiv Polytechnic Institute", Ukraine https://orcid.org/0000-0001-9115-7828
  • S. V. Oleksenko National Technical University "Kharkiv Polytechnic Institute", Ukraine
  • I. S. Schukin Firm Tetra, LTD, Ukraine

DOI:

https://doi.org/10.20998/2074-272X.2015.4.04

Keywords:

linear impactor electromechanical converters, induction converter, electromagnetic converter, synthesis of the converter parameters, magnetic field, efficient design

Abstract

The concept of linear impactor electromechanical converter combined type with a single inductor excited by capacitive energy storage aperiodic pulse is proposed. The concept combines induction and electromagnetic converters. For the synthesis of the converter parameters the Monte Carlo method is used. As the objective function is selected the maximum value of the total pulse the electrodynamic and electromagnetic force acting on the combined anchor. The features and characteristics of electro-magnetic field converters are identified. Considered several of selection policies and by means of integral index identified the most and least efficient design of the converter circuit.

References

Bolyukh V.F., Korytchenko K.V. Mainstreams of development of electromechanical impulse accelerators. Elektrotekhnіka і elektromekhanіkaElectrical engineering & electromechanics, 2009, no.4, pp. 7-13. (Rus).

Zdor G.N., Mamut A.V., Mamut V.S., Smotrakov D.V. Development of effective technological devices for magnetic elastic impulse cutting-punching thin materials. Metalloobrabotka Metal Processing, 2001, no.2, pp. 28-32. (Rus).

Bolyukh V.F., Shchukin I.S. Lineinye induktsionno-dinamicheskie preobrazovateli [Linear induction-dynamic converters]. Saarbrucken, Germany, LAP Lambert Academic Publ., 2014. 496 p. (Rus).

Ugarov G.G., Neiman V.Y. Trends in the development and use of hand-held drum machines with electromechanical energy conversion. Izvestiia vuzov. ElektromekhanikaProceedings of the universities. Electromechanics, 2002, no.2, pp. 37-43. (Rus).

Neiman V.Y. Analysis of the processes of energy conversion of linear electromagnetic machines with preliminary accumulation of magnetic energy in dynamic modes. ElektrotekhnikaElectrical Engineering, 2003, no.2, pp. 30-36. (Rus).

Gurin A.G., Naboka B.G., Gladchenko V.J. Wave phenomena in electromagnetic emitters and the formation of complex acoustic signals. Tekhnichna elektrodynamika – Technical electrodynamics, 2001, no.2, pp. 3-6. (Rus).

Tatmyshevsky K.V., Kozlov S.A. Magnetic pulse installation for testing products for aerospace shock effects. Aviakosmicheskoe priborostroenieAerospace Instrument, 2005, no.12, pp. 52-57. (Rus).

Tyutkin V.A. Magnetic pulse method for breaking arches and cleaning of process equipment from adhering materials. ElektrotekhnikaElectrical Engineering, 2002, no.11, pp. 24-28. (Rus).

Bolyukh V.F., Markov A.M., Luchuk V. F., Shchukin I.S. Device for computer information security from unauthorized access on the basis of an induction-dynamic motor. Elektrotekhnіka і elektromekhanіkaElectrical engineering & electromechanics, 2008, no.2, pp. 5-10. (Rus).

Bolyukh V.F. Ways of improvement of electromechanical linear impulse converters. Elektrotekhnіka і elektromekhanіkaElectrical engineering & electromechanics, 2006, no.5, pp. 14-21. (Rus).

Bolyukh V.F., Shchukin I.S. Schematic constructive improvement of impact electromechanical induction type converters. Elektrotekhnіka і elektromekhanіkaElectrical engineering & electromechanics, 2010, no.5, pp. 5-11. (Rus).

Bolyukh V.F., Oleksenko S.V., Shchukin I.S. Influence of ferromagnetic core parameters on induction-type dynamic motor efficiency. Elektrotekhnіka і elektromekhanіkaElectrical engineering & electromechanics, 2012, no.6, pp. 20-27. (Rus).

Bolyukh, V.F., Vinnichenko A.I. Concept of an induction-dynamic catapult for a ballistic laser gravimeter. Measurement Techniques, 2014, vol.56, iss.10, pp. 1098-1104. doi: 10.1007/s11018-014-0337-z.

Bolyukh V.F., Oleksenko S.V., Katkov I.I. The use of fast cryogenic cooling and ferromagnetic core greatly increases efficiency of a linear induction-dynamic converter. Refrigeration Science and Technology. 13th International Institute of Refrigeration Conference on Cryogenics. Prague, Czech Republic, April 7-11, 2014. Code 106226. pp. 268-275.

Bolyukh V.F., Lysenko L.I., Bolyukh E.G. Parameters of high-efficiency pulsed inductive electromechanical converters. Russian Electrical Engineering, 2004, vol.75, no.12, pp. 1-11.

Bolyukh V.F., Luchuk V.F., Rassokha M.A., Shchukin I.S. High-efficiency impact electromechanical converter. Russian electrical engineering, 2011, vol.82, no.2, pp. 104-110. doi: 10.3103/s1068371211020027.

Published

2015-08-28

How to Cite

Bolyukh, V. F., Oleksenko, S. V., & Schukin, I. S. (2015). A COMPARATIVE ANALYSIS OF CONSTRUCTIVE SCHEMES OF LINEAR IMPACTOR ELECTROMECHANICAL CONVERTERS COMBINED TYPE. Electrical Engineering & Electromechanics, (4), 20–27. https://doi.org/10.20998/2074-272X.2015.4.04

Issue

Section

Electrotechnical complexes and Systems